XENON1T excess in local Z2 DM models with light dark sector

Abstract

Recently XENON1T Collaboration announced that they observed some excess in the electron recoil energy around a 2-3 keV. We show that this excess can be interpreted as exothermic scattering of excited dark matter (XDM), XDM + eatomic → DM + efree on atomic electron through dark photon exchange. We consider DM models with local dark U(1) gauge symmetry that is spontaneously broken into its Z2 subgroup by Krauss-Wilczek mechanism. In order to explain the XENON1T excess with the correct DM thermal relic density within freeze-out scenario, all the particles in the dark sector should be light enough, namely O(100) MeV for scalar DM and O(1-10) MeV for fermion DM cases. And even lighter dark Higgs φ plays an important role in the DM relic density calculation: X X → Z' φ for scalar DM (X) and → φ φfor fermion DM () assuming mZ' > m. Both of them are in the p-wave annihilation, and one can easily evade stringent bounds from Planck data on CMB on the s-wave annihilations, assuming other dangerous s-wave annihilations are kinematically forbidden.